An ultrasound imaging system and method includes acquiring ultrasound image data while moving an ultrasound probe, automatically identifying a plurality of segments of interest in the ultrasound image data, automatically applying temporal scaling to at least one of the plurality of segments of interest, and displaying the ultrasound image data as a panoramic view comprising a plurality of videos, where each of the plurality of videos is based on a different one of the plurality of the segments of interest, and where, based on the temporal scaling, each of the plurality of videos in the panoramic view takes the same amount of time to play.

During acquisition of an ultrasound image feed, ultrasound control data frames are acquired that may be interspersed amongst the ultrasound data frames. The control data frames may use consistent reference scan parameters, irrespective of the scanner settings, and may not need to be converted to image frames. The control data frames can be passed to an artificial intelligence model, which predicts the suitable settings for scanning the anatomy that is being scanned. The artificial intelligence model can be trained with a dataset containing different classes of ultrasound control data frames for different settings, where substantially all the ultrasound control data frames in the dataset are consistently acquired using the reference scan parameters.

A system 100 comprises a first medical image capture apparatus UL1 and a second medical image capture apparatus UL2 that share values of at least some of a plurality of preferences and are of different kinds, wherein a first control device 81 in the first ultrasonic diagnostic apparatus UL1 executes an output function of outputting a value of a preference that the first input device 71 has accepted, to a server 104 along with information on the kind of the first ultrasonic diagnostic apparatus UL1, and a server control device 1411 converts the output value of the preference based on conversion information, and then, transmits the converted value to the second ultrasonic diagnostic apparatus UL2. The second ultrasonic diagnostic apparatus UL2 converts the converted value from the server 104 into that in the kind of the second medical image capture apparatus, and performs setting of the converted value.

An interchangeable tip for ultrasound probe housing includes: at least one ultrasound transducer constructed and configured to emit and receive ultrasound signals, at least one electrical contact of tip, each electrical contact of tip being constructed and configured to cooperate with an electrical connector, a tip connector constructed and configured to secure the interchangeable tip with an ultrasound probe housing.

Ultrasound image devices, systems, and methods are provided. An intraluminal ultrasound imaging system, comprising a patient interface module (PIM) in communication with an intraluminal imaging device comprising an ultrasound imaging component, the PIM comprising a first reconfigurable logic block including a first plurality of logic elements interconnected by first reconfigurable interconnection elements; a configuration memory coupled to the first reconfigurable logic block; and a processing component coupled to the configuration memory, the processing component configured to detect a device attribute of the intraluminal imaging device in communication with the PIM; and load at least one of a first configuration or a second configuration to the configuration memory based on the detected device attribute to configure one or more of the first reconfigurable interconnection elements such that the first plurality of logic elements are interconnected for communication with the ultrasound imaging component.

An image processing apparatus (1) includes: a certainty calculation unit (13) configured to analyze an ultrasound image of a subject for each frame and calculate a certainty of a blood vessel in the ultrasound image; a blood vessel detection unit (16) configured to detect the blood vessel in which the certainty calculated by the certainty calculation unit (13) is higher than a certainty threshold value; and a certainty threshold value change unit (15) configured to change the certainty threshold value based on a plurality of the certainties calculated for the ultrasound image having a plurality of frames by the certainty calculation unit (13).

A multiple aperture ultrasound imaging system may be configured to store raw, un-beamformed echo data. Stored echo data may be retrieved and re-beamformed using modified parameters in order to enhance the image or to reveal information that was not visible or not discernible in an original image. Raw echo data may also be transmitted over a network and beamformed by a remote device that is not physically proximate to the probe performing imaging. Such systems may allow physicians or other practitioners to manipulate echo data as though they were imaging the patient directly, even without the patient being present. Many unique diagnostic opportunities are made possible by such systems and methods.

A computer-implemented method of automatically identifying a reference vessel in an ultrasound image, the method comprising: segmenting the image to identify an organ; locating a predetermined anatomical landmark specific to the organ; identifying appropriate vasculature for the organ; and selecting a reference vessel from the vasculature that has a size within a predetermined size range and a location with a predetermined distance range from the predetermined interface.

An ultrasound system has user selectable tissue specific presets by which a user can condition the ultrasound system to be optimized for specific types of diagnostic exams. After an exam type has been selected and the exam commenced, a user manipulates imaging and workflow controls to better visualize the target anatomy. The user has the choice of setting up the system so that imaging and workflow settings are maintained when the tissue specific presets are changed, or to reset the imaging and workflow settings to default values upon a change of the tissue specific presets.

Aspects of the technology described herein relate to determining, by a processing device in operative communication with an ultrasound device, a position and/or orientation of the ultrasound device relative to the processing device, and displaying on a display screen of the processing device, based on the position and/or orientation of the ultrasound device relative to the processing device, an instruction for moving the ultrasound device.